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Reliable Cr20Ni35 Alloy Wire for Hydrogen Generation in Electrolysis

Reliable Cr20Ni35 Alloy Wire for Hydrogen Generation in Electrolysis

Brand Name:	DLX
Model Number:	Nichrome Wire Cr20Ni35
MOQ:	10kg
Payment Terms:	L/C,D/A,D/P,T/T,Western Union
Supply Ability:	500 tons per month

Detail Information

Product Description

Detail Information

Place of Origin:

China,Jiangsu

Certification:

Ce,Rohs

Supply Ability:

500 tons per month

Highlight:

Cr20Ni35 alloy resistance wire

hydrogen generation electrolysis wire

high-temperature resistant Cr20Ni35 wire

Product Description

Reliable Cr20Ni35 Alloy Wire for Hydrogen Generation in Electrolysis

As industries worldwide transition to greener and more sustainable energy solutions, hydrogen production through water electrolysis has emerged as a leading method. Material selection is critical for electrolysis system efficiency, particularly under the intense conditions required for hydrogen generation. Cr20Ni35 Alloy Wire—a high-performance Nichrome alloy—is increasingly becoming the preferred choice for industries seeking to maximize electrolysis system efficiency and longevity.

At DLX, we provide premium quality Cr20Ni35 Alloy Wire, specifically engineered for the demanding requirements of hydrogen production via water splitting. With exceptional durability, high-temperature resistance, and superior corrosion resistance, this wire ensures smooth and effective electrolysis system operation.

Product Overview

Cr20Ni35 Alloy Wire is a high-temperature alloy composed of 20% chromium and 35% nickel, with the balance primarily iron. This unique composition delivers outstanding performance under high-temperature conditions while maintaining excellent oxidation and corrosion resistance. These properties make it ideal for water electrolysis systems that utilize high electrical currents to split water molecules into hydrogen and oxygen.

The high chromium and nickel content ensures exceptional performance even under aggressive electrochemical conditions, which is crucial for maintaining efficiency in hydrogen production systems. This wire is commonly employed as electrode material in electrolyzers, enabling industries to produce clean hydrogen efficiently and sustainably.

Material Performance Comparison

Performance Material	Cr10Ni90	Cr20Ni80	Cr30Ni70	Cr15Ni60	Cr20Ni35	Cr20Ni30
Ni	90	Rest	Rest	55.0～61.0	34.0～37.0	30.0～34.0
Cr	10	20.0～23.0	28.0～31.0	15.0～18.0	18.0～21.0	18.0～21.0
Fe	≤1.0	≤1.0	Rest	Rest	Rest	Rest
Maximum Temperature ℃	1300	1200	1250	1150	1100	1100
Melting Point ℃	1400	1400	1380	1390	1390	1390
Density g/cm³	8.7	8.4	8.1	8.2	7.9	7.9
Resistivity(μΩ*m,20℃)	1.09±0.05	1.18±0.05	1.12±0.05	1.00±0.05	1.04±0.05	1.04±0.05
Elongation at Rupture	≥20	≥20	≥20	≥20	≥20	≥20
Specific Heat(J/g.℃)	0.44	0.44	0.44	0.44	0.44	0.44
Thermal Conductivity(KJ/m.h℃)	60.3	45.2	45.2	43.8	43.8	43.8
Coefficient of Linear Expansion (20～1000℃)	18	17	17	19	19	19
Micrographic Structure	Austenite	Austenite	Austenite	Austenite	Austenite	Austenite
Magnetic Properties	Nonmagnetic	Nonmagnetic	Nonmagnetic	Nonmagnetic	Nonmagnetic	Nonmagnetic

Key Features

High-Temperature Resistance: Withstands extreme temperatures up to 1200°C, making it ideal for electrolysis systems that generate significant heat during hydrogen production.
Superior Corrosion Resistance: Chromium and nickel combination provides excellent resistance to corrosion in alkaline and acidic electrolysis cell environments.
Longer Service Life: Enhanced durability reduces maintenance frequency and replacement needs, delivering long-term cost savings.
Optimal Conductivity: Excellent electrical conductivity minimizes energy losses during electrolysis, improving hydrogen generation efficiency.
Customizable Specifications: Available in various diameters and packaging options to meet specific electrolysis system requirements.

Advantages of DLX Cr20Ni35 Alloy Wire

Extreme Durability: Designed for reliable performance under high temperatures and corrosive conditions, ensuring long-term stability in hydrogen production systems.
Energy Efficiency: Low electrical resistivity minimizes energy loss during electrolysis, increasing system efficiency and hydrogen yield.
Cost-Effective: Extended service life and reduced replacement frequency lower operational costs over time.
Stable Performance: Maintains consistent electrical and thermal conductivity in demanding electrochemical environments.
Customization: Available in specific diameters, lengths, and packaging formats to suit particular application needs.
Global Availability: Fast and reliable worldwide delivery for both large and small-scale electrolysis system requirements.
Quality Assurance: Rigorously tested to meet the highest standards of excellence for hydrogen production applications.
Expert Support: Technical assistance available for product selection, system integration, and troubleshooting.

Industry Insights: The Growing Role of Hydrogen

As global energy demands shift toward sustainability, hydrogen is recognized as a clean and versatile energy carrier. Hydrogen production via water electrolysis represents one of the most efficient and eco-friendly methods available. By splitting water into hydrogen and oxygen using renewable electricity, electrolysis offers a zero-emission pathway to hydrogen.

The demand for green hydrogen has surged, driving the need for reliable and efficient materials to support large-scale hydrogen production. Materials like Cr20Ni35 Alloy Wire play a critical role in ensuring electrolysis system performance, longevity, and cost-effectiveness. As governments and companies advance cleaner energy solutions, the demand for advanced materials capable of withstanding high temperatures, corrosion, and electrical currents will continue to grow.

Applications of Cr20Ni35 Alloy Wire

Water Electrolysis for Hydrogen Production: Primary application in electrolyzers as electrode material for splitting water into hydrogen and oxygen, leveraging its high-temperature and corrosion resistance.
Fuel Cells: Facilitates electrochemical reactions that convert hydrogen into electricity.
Industrial Heating Elements: Suitable for heating elements in furnaces, ovens, and other high-heat industrial processes.
Electrochemical Cells: Used in electroplating, batteries, and capacitors where high conductivity and corrosion resistance are essential.

DLX vs. Competitors

While many suppliers offer Nichrome wire, DLX distinguishes itself through quality commitment, customization capabilities, and customer support. Our Cr20Ni35 Alloy Wire is specifically designed for demanding applications like hydrogen production through water electrolysis. We provide high-performance materials tailored to your exact requirements, ensuring maximum electrolysis system efficiency.

Unlike other suppliers, DLX offers fast, reliable worldwide delivery and expert technical support for system requirements and troubleshooting, delivering personalized service that extends beyond product provision.

Frequently Asked Questions

Why is Cr20Ni35 Alloy Wire used in hydrogen production?

Cr20Ni35 Alloy Wire's ability to withstand high temperatures, resist corrosion, and conduct electricity efficiently makes it ideal for electrolysis systems where hydrogen is generated from water.

What temperature can Cr20Ni35 Alloy Wire withstand?

Cr20Ni35 Alloy Wire can handle temperatures up to 1200°C, making it suitable for high-heat environments in electrolysis cells.

How does Cr20Ni35 Alloy Wire improve electrolysis efficiency?

The wire's low electrical resistivity ensures minimal energy loss during electrolysis, improving overall hydrogen production efficiency.

Can DLX customize Cr20Ni35 Alloy Wire to fit my system?

Yes, we offer various wire diameters, lengths, and packaging options to meet specific electrolysis system needs.

How long does Cr20Ni35 Alloy Wire last in electrolysis systems?

Due to excellent heat and corrosion resistance, Cr20Ni35 Alloy Wire lasts longer than many materials, reducing replacement frequency.

Is Cr20Ni35 Alloy Wire used in other applications besides hydrogen production?

Yes, it's also used in fuel cells, industrial heating elements, and electrochemical cells requiring high temperature and corrosion resistance.

How does DLX ensure the quality of its Cr20Ni35 Alloy Wire?

DLX conducts rigorous quality control and testing to ensure each batch meets the highest standards of performance, durability, and reliability.

What makes DLX's Cr20Ni35 Alloy Wire different from other suppliers?

DLX offers custom solutions, superior quality, and expert technical support to meet unique electrolysis system needs with long-lasting performance.

Tags:

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Pure Nickel Metal

NiCr Alloy

FeCrAl Alloy

CuNi Alloy

Resistance Wire

High Temperature Nickel Alloy

Nickel Welding Wire

Thermal Spray Wire

Precision Alloy

Thermocouple Bare Wire

Thermocouple Extension Wire

Mineral Insulated Cable

Platinum Iridium Alloy

Cobalt Chromium Alloy

Nitinol Alloy

Metal Foam

Metal Alloy

Heating Series

Inconel Alloy

Monel Alloy

Hastelloy Alloy

Incoloy Alloy

Pure Nickel Metal

NiCr Alloy

FeCrAl Alloy

CuNi Alloy

Resistance Wire

High Temperature Nickel Alloy

Nickel Welding Wire

Thermal Spray Wire

Precision Alloy

Thermocouple Bare Wire

Thermocouple Extension Wire

Mineral Insulated Cable

Platinum Iridium Alloy

Cobalt Chromium Alloy

Nitinol Alloy

Metal Foam

Metal Alloy

Heating Series

products details

Reliable Cr20Ni35 Alloy Wire for Hydrogen Generation in Electrolysis

Reliable Cr20Ni35 Alloy Wire for Hydrogen Generation in Electrolysis

Cr20Ni35 alloy resistance wire

hydrogen generation electrolysis wire

high-temperature resistant Cr20Ni35 wire